Author: Pruška, Adam; Marchand, Adrien; Zenobi, Renato
Title: Novel Insight into Proximal DNA Domain Interactions from Temperatureâ€Controlled Electrospray Ionization Mass Spectrometry Cord-id: nogs7m7b Document date: 2021_5_26
ID: nogs7m7b
Snippet: Quadruplexes are nonâ€canonical nucleic acid structures essential for many cellular processes. Hybrid quadruplex–duplex oligonucleotide assemblies comprised of multiple domains are challenging to study with conventional biophysical methods due to their structural complexity. Here, we introduce a novel method based on native mass spectrometry (MS) coupled with a customâ€built temperatureâ€controlled nanoelectrospray ionization (TCnESI) source designed to investigate interactions between prox
Document: Quadruplexes are nonâ€canonical nucleic acid structures essential for many cellular processes. Hybrid quadruplex–duplex oligonucleotide assemblies comprised of multiple domains are challenging to study with conventional biophysical methods due to their structural complexity. Here, we introduce a novel method based on native mass spectrometry (MS) coupled with a customâ€built temperatureâ€controlled nanoelectrospray ionization (TCnESI) source designed to investigate interactions between proximal DNA domains. Thermal denaturation experiments were aimed to study unfolding of multiâ€stranded oligonucleotide constructs derived from biologically relevant structures and to identify unfolding intermediates. Using the TCnESI MS, we observed changes in T (m) and thermodynamic characteristics of proximal DNA domains depending on the number of domains, their position, and order in a single experiment.
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